Hot Water Mixing Valves - School of Professional Home Inspection

w w w. w a t t s . c o m
Table of Contents
Page
General Information
The Dangers of Hot Water . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
The Limitations of Pressure Balanced Mixing Valves. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Watts Makes it Safe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
A Word about American Society of Sanitary Engineering (ASSE) Standards 1016, 1017, and 1070 . . . . . . 2
How They Work . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Why They Are Used . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Design Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Cautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Point of Use
USG-B, USG-P — Under Sink Guardian® Thermostatic Mixing Valves . . . . . . . . . . . . . . . . . . . . . 6-7
MMV-M1 — Thermostatic Mixing Valves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-9
L111 — Thermostatic Mixing Valves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10-11
Source of Supply
1170-M2, L1170-M2 — Hot Water Temperature Control Valves . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12-13
70A, L70A — Hot Water Extender Tempering Valves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14-15
N170-M2, N170L-M2 — Hot Water Extender Tempering Valves . . . . . . . . . . . . . . . . . . . . . . . . . . . 16-17
Accessories
CS — Check Stop Valves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18-19
Typical Installations
Typical Water Heater Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Combination Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Recirculation Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Typical Radiant Heat Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Bypass Lines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
General Information
The Dangers of Hot Water
Every year, thousands of people in the U.S.A. suffer serious thermal shock
or scalding injuries in their bathtubs, sinks and showers. Additional untold
numbers become ill due to water-borne bacteria, such as Legionella.
Problem: Thermal Shock
Often, injuries in the shower are caused by slips and falls in reaction to a
sudden increase or decrease in water temperature. Ideally, if the supply of
cold or hot water is lost, the water flow should be shut down immediately.
Termination of flow would eliminate the instinctive but dangerous reaction
to move quickly away from a too hot or too cold water stream.
Solution:
Watts Thermostatic Mixing Valves maintain and limit mixed hot water to a
desired, selectable temperature, helping to minimize thermal shock.
Problem: Scalding
More than 90% of scalding incidents occur in the home.
The tender skin of very young children and the slow reaction time of the elderly and the handicapped make them
most vulnerable to serious hot water burns. Scalding
injuries are tremendously painful, and the effects can last
for years. Scalding occurs for a variety of reasons. In
some cases, water heater thermostats are faulty, or set
too high. In others, temperature regulating valves at the
domestic hot water source are either malfunctioning or
missing altogether. Water heaters are normally set to temperatures above 131°F (55°C)
to prevent development of harmful bacteria, such as Legionella, in the water supply.
Water at temperatures above 106°F (41°C) are painful. At a temperature of 131°F
(55°C), a child can be scalded in less than 4 seconds.
Solution:
131°
The temperature in
degrees °F that is required
to kill Legionella bacteria
in a water heater
Watts Thermostatic Mixing Valves maintain and limit the mixed hot water to a desirable
selectable temperature, helping to prevent scalding injury.
Problem: Legionella Bacteria
Legionella is the bacteria responsible for Legionnaire’s Disease, an acute bacterial
infection of the lower respiratory tract. This bacterium was first identified in 1977 by the
Centers for Disease Control as the cause of an outbreak of pneumonia that caused 34
deaths at a 1976 American Legion Convention in Philadelphia. Pontiac Fever is a less
severe, non-pneumonia, flu-like disease that is associated with and likely caused by
Legionella bacteria.
Legionella is a fairly common water bacteria and has been found to exist widely in
many surface water sources such as; lakes, rivers, streams and ponds. It can also be
found in ground water sources and some soils. At the levels found in these naturally
occurring sources it typically does not pose a threat to public health. When the bacterium enters a domestic water system it can find an ideal host environment of warm
water temperatures (105-115°F), stagnant water areas (storage tanks and dead-end
piping legs) and ample food sources (sediment, scale, deposits and biofilm). Under
these conditions Legionella can rapidly colonize, forming higher concentrations that
can pose the public health threat of Legionnaire’s Disease.
There are many methods of controlling colonization of Legionella bacteria. However,
a widely accepted and preferred method is to maintain the hot water system storage
temperature continually at or above 140°F. Unfortunately, the elevated temperature
necessary to minimize the growth of and kill Legionella bacteria has the potential to
cause serious thermal shock and scalding injuries.
Solution:
Watts Thermostatic Mixing Valves maintain and limit the mixed hot water to a desirable,
selectable temperature allowing for the storage of domestic hot water at the higher
temperatures necessary to reduce the risk of Legionella growth in the system.
1
General Information
The Limitations of Pressure
Balanced Mixing Valves
Many shower and combination tub/shower mixing valves in today’s homes use a
pressure balanced design. Unfortunately, pressure balanced type valves do not automatically control outlet temperatures, nor do they automatically limit outlet temperatures
should the supply temperatures dramatically increase or decrease. Such limitations are
potentially dangerous. Further, to prevent users from adjusting the valve beyond a safe
operating temperature, pressure balanced valves require setting of the limit stop by the
installer. In addition, to accommodate future changes in the hot or cold water temperature, the limit stop would need to be re-set.
By contrast, Watts Thermostatic Mixing Valves offer precise control of the outlet temperatures, no matter how the supply temperatures or pressures vary over time.
Watts Makes It Safe…
Since 1874 Watts Regulator Company has set the standard for the latest valve technology. Whether it is our pressure reducing valves to regulate steam or water, relief
valves to ensure safe operation of water heaters or boilers or backflow prevention
devices to help prevent cross-contamination of water supplies, Watts has earned a
reputation for safety, reliability and innovation.
With widespread industry attention over the safe storage and distribution of domestic
hot water due to concerns of tap water scalding, thermal shock and Legionella, Watts
has again taken a leadership role by providing a complete line of thermostatic mixing
valves, which provide safe, accurate control of hot water from its source through to its
final use.
Please take a few moments to look over the information on the following pages, If you
have any questions or would like additional information on how to protect against the
dangers of scalding, thermal shock and Legionella growth, click on the “Danger –
Scalding Lurks” link on the Watts Regulator web site at: www.wattsreg.com, or contact
your local authorized Watts Representative.
3,000 – 4,000
The approximate number
of scald cases in the
U.S. each year
A Word about American
Society of Sanitary
Engineering (ASSE) Standards
1016, 1017 and 1070
ASSE 1016, ASSE 1017 and ASSE 1070 are standards that are cited often in this brochure.
ASSE 1016 covers the delivery of water at the individual fixtures that are adjusted and
controlled by the user. Therefore, it addresses very precise and immediate temperature
regulation requirements. This standard covers three types of valves:
Pressure Balancing, Thermostatic and Combined Pressure
Balancing/Thermostatic. Watts ASSE 1016 listed valves meet the
thermostatic requirements of this standard.
ASSE 1070 is a recently approved standard and the newest of the three
standards. It covers control of maximum temperature to a fixture or group
of fixtures; such as sinks, lavatories or bathtubs. The device may either be the final
temperature regulation or have water further tempered downstream with the addition of
cold water.
ASSE 1017, on the other hand, does not address final temperature control at fixtures
and appliances. It is concerned with valves used at the source of hot water for distribution to the supply system, and therefore allows wider variation of the outlet temperature
at higher flow rates.
ASSE 1017 listed devices should never be used to deliver water directly to the user.
These valves should be used in combination with an ASSE 1016 and/or ASSE 1070
listed devices.
For more information, please check the ASSE website at: www.ASSE-plumbing.org.
2
General Information
How They Work
Upon use of tempered water, a thermostat in the mixing chamber of the valve senses
the outlet temperature. The thermostat automatically positions a seat assembly which
controls the flow of hot and cold water supplied to the mixing chamber. If the
mixed outlet temperature increases, the thermostat will expand moving the seat
assembly to allow the cold water inlet port to open more fully and at the same
time restricting the hot water inlet port. Conversely, if the mixed outlet temperature decreases, the thermostat will contract moving the seat assembly to allow
the hot water inlet port to open more fully and at the same time restricting the
cold water inlet port. In both cases the mixed outlet water temperature is automatically and continually maintained at the preset temperature within the tolerances of the valve. In the event of a cold or hot water supply failure, the seat assembly
moves to an extreme position shutting off the hot or cold inlet water port. A mechanical
adjustment permits selection of the desired outlet water temperature within range of
the valve.
Stem Assembly
Plunger
Hot
Inlet
Cold
Inlet
Seat
Spring
Check Module
Thermostat
106°
The average water
temperature in degrees °F
that causes pain
Funnel
Mixed Outlet
Why They Are Used
Supply Systems
Mixing valves provide the following benefits:
1. The water temperature that is discharged directly from a water heater can vary
±10°F or more. This can be due to tolerance of control devices, inlet water
temperature changes and stacking (higher water temperatures at the top of
the water heater). Use of a thermostatic mixing valve assures constant outlet
water temperature even with variations in hot or cold water supply temperature.**
2. If a water heater is operated at lower temperatures, high flow demand situations
can result in a reduction of hot water supply temperatures if the recovery time of the
water heater is not sufficient for the flow demand. Using a hot water extender or
mixing valve allows the water heater to be operated at higher temperatures, extending the effective system flow rate and preventing the growth of Legionella.
3. To be able to supply peak demands for domestic hot water it is often necessary to
provide high capacity water heaters with high recovery rates. Use of a hot water
extender can reduce the size/BTU requirements needed to provide capacity for
peak system demands.
At the Fixture
Heat loss in the system piping can result in varying temperatures of the hot and cold
water supplied to fixtures. The use of thermostatic mixing valves assures constant safe
hot water temperature at the point of delivery to the fixture.
** Please refer to specification for the selected model to determine the allowable inlet
temperature range to maintain a desired outlet temperature.
3
General Information
Design Considerations
Heat Traps
• All mixing valves used at the source of supply should be trapped. Trapping the valve
helps reduce mineral deposits and premature component wear.
• Heat traps help reduce convection loss also know as thermosiphoning, increasing
system efficiency.
Stop Valves
• All mixing valves should be installed with a means to isolate the valve for service
and repair.
Check Valves
• Check valves assure flow of water in one direction. They prevent thermal siphoning
of hot water to the cold water supply.
• The addition of check valves should be considered whenever the potential exists for
extreme differential pressures between the hot and cold water supply.
• Check valves are a requirement for compliance with ASSE Standard 1017 applications. Watts Series USG, MMV and 1170 come standard with integral check valves.
Strainers
• Water supply systems should be thoroughly flushed prior to placing mixing valves
in service.
• Installation of additional strainers in the supply piping is recommended in systems
where water can contain particles that could impede the proper operation of the
mixing valve. Watts Series MMV and 1170 include inlet filters to provide protection
against supply line debris.
Maximum Pressure
This is the maximum pressure that the valve could be subjected to during normal
operation. Normal residential water system pressures should be limited to 80psi
(552 kPa) as required by national codes.
Maximum Temperature
This is the maximum temperature that the valve could be subjected to during normal
operation. Exceeding the maximum temperature could cause failure of internal components.
Minimum Flow
A minimum flow of water through the valve is required to provide accurate temperature
control. Water flow below the listed minimum could result in increased outlet deviations.
Minimum Inlet Differential
This is the minimum difference between the hot and cold temperature that is required
to produce the desired outlet temperature.
4
General Information
Cautions
At the Fixture
Delivery of water to fixtures intended for use in bathing or washing should always be
controlled by valves listed to ASSE Standard 1016 Type T or ASSE Standard 1070
such as Watts Series MMV, L111 and USG mixing valves.
ASSE 1016 listed valves provide the user with both scald protection and thermal
shock protection. ASSE 1070 listed valves provide the user with scald protection only.
These valves should never be set to exceed a maximum temperature of
120°F (49°C). (Watts recommends the maximum temperature of 110°F
(43°C) for shower and bathing fixtures.)
Supply Systems
The control of water temperature for the source of supply should be
controlled by mixing valves such as ASSE 1017 listed Watts Series 1170,
L1170 and MMV.
These valves can also be used for re-circulation systems to maintain domestic hot
water supply temperatures at levels (temperatures above 131°F (55°C)) that prevent
the growth of harmful bacteria such as Legionella.
Radiant Heat Systems
Either a Watts 1170 or an L1170 mixing valve can be used for radiant heat systems.
However, it is important that a boiler’s high temperature limits do not exceed the maximum temperature rating of the system components. This will protect against component temperature failure should dirt, sediment or other mechanical failure cause a
mixing valve to become inoperable.
Periodic Inspection
Regular inspection of mixing valves is recommended to assure maximum valve life
and a properly functioning system. Corrosive water conditions, unauthorized adjustments or repairs can be detected during inspection and service of the valve. The
frequency of cleaning depends upon local water conditions.
2–3
Seconds
The number of seconds it
takes for a child or elderly
person to receive 3rd
degree burns from water
at 140°F (60°C)
5
Point of Use
Series USG
Under Sink Guardian®
Thermostatic Mixing Valves
Size: 3⁄8" (10mm)
Series USG Under Sink Guardian® Thermostatic Mixing Valves are designed
to maintain and limit hot water to lavatory and kitchen sinks to desired
selectable temperature in commercial, institutional and residential applications. Series USG is listed to ASSE Standard 1016 for single fixture applications. These valves feature a double throttling design to control both the hot
and cold water supply to the mixed outlet. The superior flow characteristics
of these valves provide accurate temperature control (±3°F) with low pressure drop. Additionally, the Series USG incorporates dual check valves to
protect against cross-flow.
USG-B
USG-P
U.S. Pat. #6,315,209
Models
USG-B
- Bronze body
USG-B-SC - Bronze body w/satin
chrome finish
USG-P
- Thermoplastic body
Specifications
Minimum supply pressure: 30psi
(207 kPa)
A Thermostatic Mixing Valve shall be
installed on the hot water supply to the
fixture. The valve shall be ASSE
Standard 1016 listed and control the
temperature of the hot water. It shall
have a bronze (USG-B) or thermoplastic
(USG-P) body and shall include integral
check valves and an adjustment cap
with locking feature. The valve shall be
provided with 3⁄8" (10mm) male compression fittings. The valve shall be Watts
Regulator Company Series USG-B or
USG-P.
Hot inlet temperature: 120°F-180°F
(49°C-82°C)
Features
Cold inlet temperature: 40°F-85°F (4°C29°C)
• Maintains mixed water temperature to
±3°F up to 120°F (49°C).
Minimum inlet temperature differential:
15°F (9°C)
• Installs easily between the stop valves
and faucet
Temperature out: 80°F-120°F
(27°C-49°C)
• 3/8" (10mm) compression fittings
Maximum pressure: 150psi (10.34 bar)
• Includes tamper resistant locking cap
to prevent accidental mis-adjustment.
Pressure differential between hot and
cold inlet supplies must be less than
20% between them.
• Built-in check valves prevent migration
of hot water to cold and cold water to
hot water piping.
• Provided with cap for three port
application.
Materials
• Body: Bronze (USG-B),
Thermoplastic (USG-P)
• Metal Disc: Stainless steel
• Spring: Stainless steel
• Ball: Stainless steel
• Thermostat: Copper
• Rubber Disc: Buna-N
• O-rings: Buna-N
• Piston: UDEL-P1700
• Gasket: Garlock 3000
6
Pressure – Temperature
Approvals
(USG-P only)
Approval: CSA B-125 certified
NSF 61 Certified (USG-P only)
Listing: ASSE Standard 1016
Options
For optional strainer specify USG
Strainer – 3⁄8" male compression x 3⁄8"
female thread, 20x20 mesh stainless
steel screen.
For satin chrome finish specify – SC
(for USG-B only)
Point of Use
Typical Installation
The Watts Under Sink Guardian®, USG, installs easily onto most faucets.
• Shut off supply valves and remove existing piping to faucet
• Connect the USG to the supply valves and the faucet, using tubing of your choice
with 3/8" (10mm) compression fittings
• Turn on supply valves and check for leaks.
• Set temperature
Temperature Adjustment
You can easily adjust the Under Sink Guardian® to the desired safe maximum
temperature using the unique safety cap.
• Loosen the cap screw with the hex wrench provided.
• Pull the cap from the valve body and turn to obtain the desired mixed water temperature at the outlet. As a safety feature, the cap must be partially lifted from the valve
to adjust the temperature.
• Push the cap onto the valve body and tighten the hex screw to protect against
inadvertent or unauthorized adjustment of the outlet temperature.
• Lower handle and tighten screw.
• Check outlet temperature.
Spout
Sensor
Mixed Water
Supply to
Faucet
Control
Module
Cap
Watts
USG
Dimensions — Weights
Transformer
A
Cold
Supply
Hot
Supply
B
Typical Sensor Faucet Application
MODEL
BODY
CONNECTION SIZE (DN)
DIMENSIONS (APPROX.)
A
in.
USG-B
USG-B-SC
USG-P
Bronze
Bronze with
Satin Chrome Finish
Plastic
3
/8" (10mm) Compression
/8" (10mm) Compression
3
3
/4" (10mm) Compression
WEIGHT
B
mm
in.
mm
lbs.
kg.
3
5 /16
53/16
132
132
1
3 /8
31/8
79
79
1.5
1.5
0.68
0.68
53/16
132
31/8
79
1.5
0.68
7
Point of Use
Series MMV-M1
Thermostatic Mixing Valves
Sizes: 1⁄2" - 1" (15 – 25mm)
Series MMV-M1 Thermostatic Mixing Valves are designed to maintain and
limit hot water to sinks, baths, showers or lavatories to desired selectable
temperature in commercial, institutional and residential applications. Series
MMV-M1 is listed to ASSE Standard 1016 for single fixture applications,
ASSE 1070 for single or multiple fixture applications and ASSE 1017 for hot
water source applications. These valves feature a double throttling design to
control both the hot and cold water supply to the mixed outlet. The superior
flow characteristics of these valves provide accurate temperature control
(±3°F) with low pressure drop. Additionally, the Series MMV-M1 incorporates
integral inlet filter washers and check valves to protect against cross-flow
MMV-M1
Models
Pressure –– Temperature
Specifications
MMV-UT-M1
- Union threaded
end connections
Minimum Supply Pressure Static: 30psi
(207 kPa)
MMV-US-M1
- Union solder end
connections
MMV-PEX-M1
- Union PEX end
connections
Inlet Temperatures: hot inlet, 120°F –
180°F (49°C – 82°C), cold inlet,
39°F – 85°F (4°C – 29°C)
A Thermostatic Mixing Valve shall be
installed on the hot water supply to fixture.
The valve shall be ASSE Standard 1016,
ASSE 1017 and ASSE 1070 listed and
control the temperature of the hot water.
It shall have a bronze body and shall
include integral filter washers and check
valves and an adjustment cap with locking feature. The valve shall be provided
with solder (-US), threaded (-UT), CPVC
or PEX union connections. The valve
shall be a Watts Regulator Company
Series MMV-M1.
MMV-CPVC-M1 - Union CPVC end
connections
Hot Water Inlet to Outlet Differential
Temperature: 10°F (5.6°C)
Features
Temperature Out: Field range: 80°F –
120°F (27°C – 49°C), adjustable.
Accurate within ±3°F (1.7°C)
• Bronze body construction
Maximum Temperature: 200°F (93°C)
• Solid wax hydraulic principle thermostat assures dependable mixing of hot
and cold water
Maximum Pressure: 150psi (10.55 bar)
Minimum Flow: 0.5 gpm (1.9 lpm) @
0.8psi (0.55 kPa)†
Basic Construction
• Thermostat controls both hot and
cold water
Maximum Flow: 20 gpm (76 lpm) @
125psi (862 kPa)†
LOCKING
ADJUSTMENT CAP
• Solder, threaded, PEX or CPVC end
connection models available
ADAPTER
UNION NUT
Approvals
ALLEN HEAD SCREW
O-RING
FILTER
WASHER
STEM ASSEMBLY
BONNET ASSEMBLY
O-RING
FILTER WASHER
O-RING
• Adjustment cap with locking feature
PLUNGER
• ASSE 1016, 1017 and 1070 listed
• Integral filter washers and check valves
Approval: CSA B125 Certified
Materials
Listing: ASSE 1016, ASSE 1017 &
ASSE 1070
• Body: Bronze
† When tested in accordance with ASSE
1016, ASSE 1017 & ASSE 1070.
• Thermostat Assembly: Copper
• O-rings: Buna-N; EPDM
• Pistons: Udel-P1700
• Springs: Stainless Steel
8
TAILPIECE
SEAT
CHECK MODULE
BODY
SPRING
THERMOSTAT
FUNNEL
FIBER WASHER
Point of Use
Typical MMV-M1 Applications
Cold
Cold
Hot
140°F
Cold
Cold
Hot
Hot
140°F
Cold
MMV-M1
Cold
MMV-M1
Supply
Stops
Hot
Hot
MMV-M1
Cold
Cold
Hot
Supply
Stops
Cold
Mixed
110°F
Typical Two Handled Faucet Typical Two Handled Faucet
Typical Sensor Faucet
Figure 2 – Typical ASSE 1070 Application
Figure 1 – Typical ASSE 1016 Application
Watts N36
Vacuum Relief
Valve
Capacity
1
kPa psi
345 50
Mixed
110°F
/2", 3/4", 1" (15, 20 & 25mm)
Hot to
Appliances
Cold
207 30
0
2
7.6
4
15
6
23
8
30
10
38
12
46
Cold
69 10
Watts T&P
Relief Valve
14 gpm
53 lpm
C H
M
138 20
0
*8" – 12"
Hot
Pressure Drop
276 40
Tempered †
Typical Two Handled Faucet
Mixed
110°F
Watts
Temperature
Gauge
Mixed
110°F
MMV-M1
Cold
Figure 3 – Typical ASSE 1017 Application
† Devices tested to ASSE Standard 1016 or ASSE 1070 such as
Watts Series USG, L111 or MMV should be used at fixture to
prevent possible injury.
Dimensions — Weights
THREAD
(UT)
CPVC
PEX
SWEAT
(US)
B
C
D
A
MODEL
D
SIZE (DN)
1
MMV-UT-M1
MMV-US-M1
MMV-PEX-M1
MMV-CPVC-M1
UT = Union Thread
mm
/2
15
/4
20
1
32
1
/2
15
3
/4
20
1
32
1
/2
15
3
/4
20
1
32
1
/2
15
3
/4
20
1
32
US = Union Sweat
3
D
DIMENSIONS (APPROX.)
A
in.
D
in.
7
4 /8
47/8
55/16
413/16
55/16
513/16
51/4
51/2
57/8
43/4
51/4
511/16
B
mm
in.
124
124
135
123
135
148
133
140
149
121
133
144
7
5 /16
57/16
55/8
53/8
55/8
57/8
59/16
511/16
57/8
55/16
59/16
513/16
WEIGHT
C
mm.
in.
137
137
143
137
143
149
142
145
150
136
142
147
3
3 /16
33/16
33/8
31/8
33/8
35/8
35/16
37/16
35/8
31/16
35/16
39/16
D
mm
in.
mm
lbs.
kg.
80
80
86
80
86
92
85
88
93
79
85
90
1
13
14
17
13
19
23
1
19
2
13
19
23
1.5
1.6
1.6
1.5
1.6
1.6
1.5
1.6
1.6
1.5
1.6
1.6
.68
.73
.73
.68
.73
.73
.68
.73
.73
.68
.73
.73
/2
/16
11
/16
1
/2
3
/4
15
/16
5
/8
3
/4
13
/16
1
/2
3
/4
15
/16
9
9
Point of Use
Model L111
Thermostatic Mixing Valve
Size: 1⁄2" (15mm)
Model L111 Thermostatic Mixing Valve is ideal for supplying sinks, showers
or lavatories with tempered water in residential, commercial and institutional
environments. It can be used anywhere preset water temperature is required
for point-of-use, under sink installations such as in homes, schools, restaurants, hospitals and public restrooms. The L111's tamper-resistant
polypropylene cover makes it especially useful for any exposed or “underthe-sink” installations. The cover is secured by a hexagonal screw, which
limits access to the temperature adjusting mechanism to protect from unauthorized tampering. Model L111 is listed to ASSE Standard 1016 for single
fixture applications.
L111
Features
Pressure — Temperature
Specifications
• High flow rate capable of supplying
single fixture with up to 10 gpm (38
lpm) of pre-set, tempered water
Minimum Supply Pressure (static): 15psi
(103 kPa)
A Thermostatic Mixing Valve shall be
installed on the hot and cold water supply to the fixture as shown in the diagram. The valve shall be ASSE Standard
1016 listed and control the temperature
of the hot water to the fixture. The valve
shall have 1/2" (15mm) female NPT inlet
and outlet connections. The valve shall
have a brass body with integral mounting holes to enable the valve to be
secured to a wall or suitable enclosure.
The valve shall include a tamper resistant
thermoplastic enclosure to protect
against unauthorized adjustment of the
outlet temperature or removal of mounting fasteners. The valve shall be of a single replaceable cartridge design to allow
service or repair of the valve without
removal of the valve from the piping system or disassembly of internal valve
components. The valve shall be a Watts
Regulator Company Model L111.
• Can be either direct wall mounted or
cabinet mounted
Recommended Inlet Temperatures:
Hot inlet: 120°F – 180°F (49°C – 82°C)
Cold inlet: 41°F – 70°F (5°C – 21°C)
• Installs easily into existing water
supply lines
Minimum Inlet Differential Temperature:
10°F (5.6°C)
• Rugged construction of forged brass
body and replaceable, advanced polymer temperature-regulating element
assures long life
Temperature Out: Field range: 80°F –
120°F (27°C – 49°C), adjustable
Accurate within ±3°F (±1.5°C)
Materials
Maximum Pressure: 125psi (8.8 bar)
• Body: Forged brass construction
• O-ring: EPDM
• Temperature Regulating Cartridge:
Polyetherimide
Maximum Temperature: 200°F (93°C)
Minimum Flow Requirement: 0.5 gpm
(1.9 lpm)
Approvals
• Cover: Polypropylene
Listing: ASSE 1016
Application Note
Installation of stop valves and check
valves is recommended to allow periodic
inspection and to prevent cross flow in
extreme pressure differential situations.
NOTE: Do not use this valve to recirculate
water at elevated temperatures. Systems that
recirculate water at elevated temperatures to
reduce risk of bacterial growth in the piping
require ASSE Standard 1017 devices. This
valve can be used in conjunction with recirculation systems to reduce the hot water supply to
a safe temperature at the individual fixtures.
10
Point of Use
Typical Applications
Watts Model L111 shown with Series CS
Check Stops (optional) installed
Hot
Cold
Capacity
1
kpa psi
621 90
/2" (15mm)
Pressure Drop
517 75
414 60
310 45
207 30
103 15
0
0
2.5
9.5
5
19
7.5
28.5
10
38
12.5
47.5
15 gpm
57 lpm
*with 50% reduction of supply pressure
Dimensions — Weights
E
J
F
K
D
MODEL
INLET/OUTLET SIZE
DIMENSIONS (APPROX.)
(DN)
in.
L111
1
⁄2
D
mm
in.
15
15
2 ⁄16
E
mm
in.
74
15
3 ⁄16
WEIGHT
F
mm
in.
101
3
1 ⁄4
J
mm
in.
45
7
3 ⁄8
K
mm
98
in.
11
⁄16
mm
lbs.
kg
17
3.3
1.5
11
Source of Supply
Series 1170-M2, L1170-M2
Hot Water Temperature Control Valves
Sizes: 1⁄2" – 1" (15 – 25mm)
Series 1170-M2, L1170-M2 Hot Water Temperature Control Valves are
designed for mixing hot and cold water on hot water supply systems. They
can be used for a variety of applications to reduce the temperature of the
hot water from the system, and are ideal for radiant heat applications. These
valves feature a double throttling design to control both the hot and cold
water supply to the mixed outlet. Additionally, the Series 1170-M2, L1170M2 incorporates integral inlet filter washers and check valves to protect
against cross-flow. Series 1170-M2, L1170-M2 is listed to ASSE Standard
1017 for hot water source applications.
1170-M2
Models
Materials
Specifications
1170 Temperature Range:
90°F – 160°F (32°C – 71°C)
• Body: Bronze
1170-UT-M2
- Union threaded
end connections
• Thermostat Assembly: Copper
1170-US-M2
- Union solder end
connections
• Pistons: Udel-P1700
1170-PEX-M2
- Union PEX end
connections
1170-CPVC-M2
- Union CPVC end
connections
A Hot Water Temperature Control Valve
shall be installed on water heating equipment to provide tempered water to supply piping. Valve shall have a bronze
body, include integral check valves and
operate so the thermostat controls the
cold and hot water ports. The valve shall
be provided with solder (-US), threaded
(-UT), PEX or CPVC connections. Valve
shall be ASSE Standard 1017 Listed.
Valve shall be a Watts Regulator
Company Series 1170-M2 or L1170-M2.
L1170 Temperature Range:
60°F – 120°F (16°C – 49°C)
• Springs: Stainless steel
• O-Rings: EPDM
Pressure — Temperature
Minimum Supply Pressure (Static): 30psi
(207 kPa)
Inlet Temperatures: hot inlet, 120°F –
200°F (49°C – 93°C),
cold inlet, 40°F – 85°F (4°C – 29°C)
L1170-UT-M2
- Union threaded
end connections
Hot Water Inlet to Outlet Temperature
Differential: 10°F (5.6°C)
L1170-US-M2
- Union solder end
connections
L1170-PEX-M2
- Union PEX end
connections
1170-M2 Temperature Out: Field range:
90°F – 160°F (32°C – 71°C),
adjustable: Accurate within ±3°F (1.7°C)
L1170-CPVC-M2 - Union CPVC end
connections
L1170-M2 Temperature Out: Field
range: 60°F – 120°F (16°C – 49°C),
adjustable. Accurate within ±3°F (1.7°C)
Maximum Temperature: 200°F (93°C)
Features
Maximum Pressure: 150psi (10 bar)
• Bronze body construction
• Solid wax hydraulic principle thermostat assures dependable mixing of hot
and cold water
• Thermostat controls both hot and
cold water
• Models available with solder, thread,
PEX or CPVC end connections
Approvals
Application Note
Watts Hot Water Temperature Control
Valve Series 1170 are designed to be
installed at or near the boiler or water
heater. They cannot be used by themselves for tempering water temperatures
at fixtures where ASSE Standard 1016
or ASSE Standard 1070 listed devices
are required. To comply with ASSE
Standard 1016 or ASSE Standard 1070,
listed devices such as Watts Series
L111, USG or MMV should be used at
fixtures to prevent possible injury.
Basic Construction
LOCKING
ADJUSTMENT CAP
Approval: CSA B125 Certified
Listing: ASSE 1017
ALLEN HEAD SCREW
ADAPTER
UNION NUT
O-RING
FILTER
WASHER
STEM ASSEMBLY
BONNET ASSEMBLY
O-RING
FILTER WASHER
O-RING
PLUNGER
• Integral filter washers and check valves
• Adjustment cap with locking feature
• ASSE 1017 listed
TAILPIECE
SEAT
CHECK MODULE
BODY
SPRING
THERMOSTAT
FUNNEL
FIBER WASHER
12
Source of Supply
Tempered †
C H
M
Cold
Watts T&P
Relief Valve
*8" – 12"
Hot
Cold
Watts N36
Vacuum Relief
Valve
Watts
Temperature
Gauge
Hot to
Appliances
Typical 1170-M2 Applications
1170-M2, L1170-M2
Cold
† Devices tested to ASSE Standard 1016 or ASSE 1070 such as Watts USG,
L111 or MMV should be used at fixture to prevent possible injury.
* Heat trap is recommended. See page 4 for further information
Capacity
1
⁄2", 3⁄4" & 1" (15, 20 & 25mm)
Pressure Drop
kPa psi
345 50
276 40
207 30
138 20
69 10
0
0
5
19
10
38
15
57
20
76
25 gpm
95 lpm
Dimensions — Weights
THREAD
(UT)
CPVC
PEX
SWEAT
(US)
B
C
D
A
MODEL
D
SIZE (DN)
in.
1170-UT-M2
1170-US-M2
1170-PEX-M2
1170-CPVC-M2
UT = Union Thread
mm.
/2
15
3
/4
20
1
32
1
/2
15
3
/4
20
1
32
1
/2
15
3
/4
20
1
32
1
/2
15
3
/4
20
1
32
US = Union Sweat
D
DIMENSIONS (APPROX.)
A
1
D
B
WEIGHT
C
D
in.
mm.
in.
mm.
in.
mm.
in.
mm.
lbs.
kg.
47/8
47/8
55/16
413/16
55/16
513/16
51/4
51/2
57/8
43/4
51/4
511/16
124
124
135
123
135
148
133
140
149
121
133
144
57/16
57/16
55/8
53/8
55/8
57/8
59/16
511/16
57/8
55/16
59/16
513/16
137
137
143
137
143
149
142
145
150
136
142
147
33/16
33/16
33/8
31/8
33/8
35/8
35/16
37/16
35/8
31/16
35/16
39/16
80
80
86
80
86
92
85
88
93
79
85
90
1
13
14
17
14
19
24
16
16
21
13
19
24
1.5
1.6
1.6
1.5
1.6
1.6
1.5
1.6
1.6
1.5
1.6
1.6
.68
.73
.73
.68
.73
.73
.68
.73
.73
.68
.73
.73
/2
9
/16
11
/16
1
/2
3
/4
15
/16
5
/8
5
/8
13
/16
1
/2
3
/4
15
/16
13
Source of Supply
Series 70A, L70A
Hot Water Extender Tempering Valves
Sizes: 1⁄2" - 3/4" (15 – 20mm)
Watts Series 70A, L70A Hot Water Extender Tempering Valves are designed
for small domestic water supply systems, especially tankless heater, water
heater and solar installations and are available with sweat or threaded connections. They feature a hydraulically-operated thermostat which opens a
spring-loaded check in the cold water inlet, allowing cold water to mix with
the hot. Valve bodies are constructed of brass to resist corrosive domestic
hot water conditions.
For their size, these valves have an unusually high capacity. For example,
the 3/4" (20mm) 70A-T used for smaller domestic and residential requirements passes more than 10gpm (38 lpm), with a 10psi (70 bar) pressure
drop. Maintenance is simple too; the thermostat is easily removed and
replaceable as a unit.
Models
Pressure — Temperature
70A-F
– Furnished in 1/2" (15mm) size
with sweat connections
70A-T
1
3
– Furnished in /2" and /4" (15
and 20mm) threaded connections
L70A-F – Identical to 70A-F except
furnished for low temperature
range applications between
100°F and 130°F (38°C and
54° C)
Temperature range: 120°F – 160°F
(49°C – 71°C)
Maximum Temperature: 210°F (99°C)
70A
Basic Construction
Dial Adjustment
Cap
Maximum Pressure: 150psi (10.55 bar)
Brass Body
Minimum Flow Requirement: 2 gpm
(8 lpm)
Replaceable
Thermostat
(interchangeable in all four
models)
L70A-T – Identical to 70A-T except
furnished for low temperature
range applications between
100°F and 130°F (38°C and
54° C)
Features
• Brass valve bodies
• Simple maintenance thermostat
assembly is easily removed and
replaceable as a unit
• “Finger Tip” Dial adjustment cap
• Sweat or threaded connections
• Stainless steel springs
14
Sweat or
threaded
connections
Heavy stainless
steel spring
Source of Supply
Typical 70A Applications
Water Heater
Boiler
Watts Vacuum
Relief Valve
Tempered
Pressure Relief
Valve
Drain
Hot to
Appliances
Hot to
Appliances
Hot
Watts
Ball Valves
Pressure relief
valve meeting
latest C.S.A.
Standard
Watts Series 70A
Tempered
Watts
Series
70A
Tankless Heater
8" – 12"*
(200 – 300mm)
Cold
Valves listed to ASSE Standard 1016 such as the Watts USG, L111 or MMV should be used at point of delivery.
Watts Check Valve
* Heat trap is recommended. See page 5 for further information
Pressure Drop
Capacity
Dimensions — Weights
A
1
14
2
7
1
0
0
0
0
C
3
⁄2" (15mm)
kPa psi
69 10
62 9
55 8
48 7
41 6
34 5
28 4
21 3
1
4
2
8
3
11
4
15
5
19
⁄4" (20mm)
6
23
7
27
8
30
9
34
10 gpm
39 lpm
D
D1
E
MODEL
SIZE (DN)
DIMENSIONS (APPROX.)
A
in.
70A-F
70A-T
70A
70A-T
L70A-F
L70A-T
L70A
L70A-T
1
/2
/2
3
/4
3
/4
1
/2
1
/2
3
/4
3
/4
1
mm
15
15
20
20
15
15
20
20
in.
2
23/4
23/4
23/4
2
23/4
23/4
23/4
C
mm
in.
50
70
70
70
50
70
70
70
3
2 /4
23/4
23/4
23/4
23/4
23/4
23/4
23/4
WEIGHT
D
mm
70
70
70
70
70
70
70
70
in.
1
15/8
13/8
13/8
1
15/8
13/8
13/8
D1
mm
in.
25
41
41
41
25
41
41
41
3
1 /8
13/8
13/8
13/8
13/8
13/8
13/8
13/8
E
mm
in.
mm.
lbs.
kg.
41
41
41
41
41
41
41
41
3
21
21
21
21
21
21
21
21
0.68
1.30
0.96
1.20
0.60
1.30
0.96
1.20
.30
.59
.44
.54
.29
.59
.44
.54
1 /16
13/16
13/16
13/16
13/16
13/16
13/16
13/16
15
Source of Supply
Series N170-M2, N170L-M2
Hot Water Extender Tempering Valves
Sizes: 3⁄4" - 2" (20 – 50mm)
Series N170-M2, N170L-M2 hot water extender tempering valves are
designed for mixing hot and cold water to extend the hot water supply in
large hot water supply systems. The unique “double thermostat design”
combines two thermostats to respond quickly to changes in water temperature passing through the mixing chamber. And because the travel load is
divided evenly between the two sensing elements, the operating life of the
element is vastly improved.
This new concept in thermostat design provides a powerful force on opening and closing of fixtures to ensure the proper mix. The combination of a
sensitive thermostatic element with a free-moving, high-temperature-resisting rubber disc ensures longer valve life and more satisfactory system performance. Plus, this dual-action thermostat is interchangeable in all sizes
from 3/4" – 2" (20 – 50mm).
Models
• N170-M2
• N170L-M2
Materials
– Stainless Steel disc.
For temperatures
between 130°F –
180°F (55°C – 82°C)
– Stainless Steel disc.
For temperatures
between 100°F –
130°F (38°C – 55°C)
• N170-M2-HT – Teflon® disc. For
temperatures
between 130°F –
180°F (55°C – 82°C)
• N170L-M2-HT – Teflon® disc. For
temperatures
between 100°F –
130°F (38°C – 55°C)
Features
N170-M2
Specifications
• Body: Bronze
®
• Disc: Stainless Steel (Teflon for models
N170-M2-HT and N170L-M2-HT)
• Thermostat Assembly: Copper
Pressure — Temperature
Maximum Pressure: 150psi (10.55 bar)
Series N170-M2 and N170-M2-HT
adjustable temperature range: 130°F –
180°F (55°C – 82°C)
Series N170L-M2 and N170L-M2-HT
adjustable temperature range: 100°F –
130°F (38°C – 55°C)
A Hot Water Extender Tempering Valve
shall be installed on heating equipment
to provide tempered water. Valve shall
have bronze body and operate so that
the thermostat controls both the hot and
the cold water ports. Valve shall be a
Watts Regulator Company Series N170M2, N170L-M2.
Basic Construction
Lock Nut
Adjusting Screw
Name Plate
Maximum Temperature: 210°F (99°C)
Minimum Flow Requirement: 8 - 9 gpm
(30 - 34 lpm)
• All bronze body construction with
stainless steel disc
• Solid wall hydraulic principle thermostat
assures dependable mixing of hot and
cold water
• Thermostat controls both hot and
cold water
• New static adjustment screw seal
Exclusive
dual-action
thermostat not
vulnerable to
corrosionpowerful,
hydraulic
action
control
COLD
Interchangeable
thermostat
standard in all 5
valve sizes.
High temperature
resisting rubber
disc provides
positive shut off
HOT
Bronze Body
Teflon® is a registered trademark of the E.I. Dupont de Nemours & Company, Incorporated.
16
Source
Point
of Supply
of Use
Typical N170-M2 Applications
Typical Water Heater With Hot Water Storage Tank
To Fixtures
From Cold Supply
To Model USG,
L111 or MMV
Thermometer
Tempered 140°F (60˚C)
Cold
Cold
Series
N170-M2
Tempering
Valve*
CSA/ASME
T&P Valve
ASME Pressure
Relief Valve
180°
*
8”
to
12”
Shutoff Valves
(on both hot and
cold inlets)
Storage Tank
Model 600
Check Valves (0n
both hot and cold
inlets)
Water Heater
or
Boiler
Drain
*IMPORTANT: Valve must be
installed trapped as shown
Valves listed to ASSE 1016 or ASSE 1070 such as the Watts USG,
L111 or MMV should be used at point of delivery.
Capacity
* Heat trap is recommended. See page 4 for further information
Pressure Drop
Dimensions — Weights
C
Mixed
Cold
kpa
345
psi
50
310
45
276
40
241
35
207
30
172
25
138
20
103
15
69
10
34
5
0
0
Hot
10
38
A
TEMPERATURE RANGE
N170-M2
N170-M2
N170-M2
N170-M2
N170-M2
100° – 130°F
(38° – 55°C)
Model
N170L-M2
N170L-M2
N170L-M2
N170L-M2
N170L-M2
11⁄2"
(38mm)
2"
(50mm)
E
D
130° – 180°F
(55° – 82°C)
Model
3
⁄4"
1"
11⁄4"
(19mm) (25mm) (32mm)
SIZE (DN)
3
/4
1
11/4
11/2
2x11/2
30
114
40
152
50
190
60
228
70
266
80
304
90
342
100
380
110
418
DIMENSIONS (APPROX.)
A
in.
20
76
B
120 gpm
456 lpm
WEIGHT
D
E
mm
in.
mm
in.
mm
in.
mm
in.
mm.
lbs.
kg.
20
25
32
40
50x4
41/8
41/2
6
6
63/8
105
114
152
152
162
53/8
53/8
6
6
6
143
143
152
152
152
2
2
2
21/8
21/8
50
50
50
54
54
31/2
31/2
37/16
37/16
37/16
90
90
88
88
88
4.13
4.38
8
8
8.75
1.9
2.0
3.6
3.6
4.0
17
Accessories
Series CS
Check Stop Valves
Sizes: 1⁄2", 3⁄4", 1" (15, 20, 25mm)
Watts Series CS check stop valves perform triple duty — as isolation valves,
as check valves, and as strainers. The union connections facilitate service
and maintenance of both the valve and the strainer. The Series CS valves
protect against cross flow of hot and cold water in the system, provide isolation of the mixing or tempering valve during servicing, and allow for maintenance of the valve. The CS Series' integral fine mesh strainer protects the
valve from damaging dirt or debris.
CS U-T
CS U-T
Models
Materials
Specifications
CS U-T
– Union threaded
• Body – Bronze body construction
CS U-S
– Union solder
• O-rings – EPDM
CSC U-T
– Union threaded, chrome
plated
• Strainer Screen – Stainless steel
CSC U-S
– Union solder, chrome
plated
• Disc – EPDM
A CS combination check/stop/strainer
valve shall be used at the hot and cold
water inlets to the Watts L111 mixing
valves. This manual valve shall be a
Watts model CS U-T (union/threaded),
CS U-S (union/solder), CSC U-T /S
(chrome plated union, thread/solder) as
indicated on the installation plans. This
valve will be of bronze construction,
incorporating materials suitable for its
intended use. The check/stop valve shall
be fitted with a strainer to prevent large
particulate matter from entering the
valve. The check/stop valve shall be fitted with a union connection to facilitate
the removal of the mixing valve and the
servicing of the strainer. Valve shall be a
Watts Regulator Company Series CS.
Features
• Performs triple duty: check valve, shutoff valve, strainer
• Check valve function protects against
hot and cold water supply cross flow
• Shutoff function facilitates mixing valve
service
• Strainer protects mixing valves from
dirt and other debris
• Universal design eliminates lefthand/right-hand confusion
18
• Spring – Stainless steel
• Adjustment Screw – Slotted
Pressure — Temperature
Maximum Pressure: 150psi (10.3 bar)
Maximum Temperature: 200°F (93°C)
Accessories
Dimensions — Weights
CS U-T
CS U-S
B
B
D
D
E
E
A
A
MODEL
SIZE (DN)
DIMENSIONS (APPROX.)
Inlet
Outlet
A
B
WEIGHT
D
E
in.
mm
in.
mm
in.
mm
in.
mm
in.
mm
in.
mm.
oz.
gr.
1
CS U-S
/2
3
CS U-S
/4
1
CS U-T
/2
3
CS U-T
/4
CS U-T
1
1
*CSC U-S
/2
3
*CSC U-S
/4
1
*CSC U-T
/2
3
*CSC U-T
/4
CSC U-T
1
*Chrome plated
15
20
15
20
25
15
20
15
20
25
1
15
20
15
20
25
15
20
15
20
25
27/8
3
27/8
31/4
4
27/8
3
27/8
31/4
4
73
76
73
83
102
73
76
73
83
102
15/16
211/16
15/16
211/16
31/8
15/16
211/16
15/16
211/16
31/8
59
68
59
68
79
59
68
59
68
79
13/16
13/8
13/16
13/8
111/16
13/16
13/8
13/16
13/8
111/16
30
35
30
35
43
30
35
30
35
43
21/4
25/16
21/4
25/16
31/8
21/4
25/16
21/4
29/16
31/8
57
59
57
65
79
57
59
57
65
79
12
17
12
17
27
12
17
12
17
27
340
482
340
482
765
340
482
340
482
765
/2
3
/4
1
/2
3
/4
1
1
/2
3
/4
1
/2
3
/4
1
19
Typical Installation
Typical Water Heater Installation
Using Watts Mixing Valves and other related flow control products.
The numbers in parenthesis are keyed to the application descriptions below and to the drawings.
(7) Drain tubes are required to channel hot water discharge from
the temperature and pressure safety relief valve to a safe area
of disposal. Use Watts Series 100DT.
(2) Many municipalities require backflow prevention devices at
the supply to the building in order to assure clean, safe
potable water to all customers in the water distribution system. Watts Series 7 and Watts Series 009 backflow preventers can be used.
(8) To prevent the water heater tank from collapsing when a
water heater or a system is drained and to prevent the
siphoning of all of the hot water from the water heater, a
vacuum relief valve is required. Use Watts Model N36 CSA
Listed Relief Valves.
(3) Pressure reducing valves save water and prevent high water
supply pressure problems which can damage appliances
and valves. Use Watts Series 25AUB-Z3.
(9) To operate the water heater at elevated temperatures and
extend the effective system flow rate and/or provide a two
temperature system, a tempering valve is required. Use a
Watts Series 1170-M2, L1170-M2.
(4) In closed systems or where high water pressure exists, a
method to control thermal expansion is required. Watts
Series DET Potable Water Thermal Expansion tanks are the
most environmentally friendly way of controlling thermal
expansion.
(5) Whenever two dissimilar metals are connected, there exists
the potential for electrolysis or galvanic action to occur. This
can result in corroded piping. Watts Series 3005A Dielectric
Unions remove the conditions that cause these problems.
(6) Watts Temperature and Pressure (T&P)
Safety Relief Valves are required to prevent dangerous temperature or pressures from damaging the water heater.
Watts Series 100XL CSA listed T&P
valves are used on most residential
water heaters.
(8) WATTS
Vacuum
Relief
Valve
Hot Water To
Dishwasher
And Washing
Machine
(4) WATTS
Expansion
Tank
(5) Dielectric
Union
WATTS
Service
Check
Valve
(9) Tempering
Valves*
WATTS
Pressure
Gauge
(2) WATTS
Backflow
Preventer
(6) WATTS
T&P Relief
Valve
8" – 12"
(200 – 300mm)
WATTS
Test Plug
(7) WATTS
Drain Tube
(1) WATTS
Shut-off
Water
Meter
Tempered Water†
(1) Proper installation requires a shutoff valve at the entrance of
the domestic water supply to the building. Use Watts Series
B6000 ball valves for long life, easy, no leak shut off.
(3) WATTS
Water
Pressure
Reducing
Valve
Cold
† Valves listed to ASSE 1016 or ASSE 1070 such as the Watts USG,
L111 or MMV should be used at point of delivery.
* Heat trap is recommended. See page 4 for further information.
20
Typical Installations
Watts
Series
1170-M2*
Cold Water In
Hot
8"–12"
(200 – 300mm)
Tempered†
Combination Systems
These systems use a water heater to supply both domestic hot
water and space heating. Space heating may be accomplished
by passing hot water from the water heater tank through a
heat exchanger located within the water heater tank through
either an air handler unit or radiant heat tubing loop.
120°-140°F (49˚C – 60˚C)
Water
To provide sufficient BTU’s and recovery for system space
heating requirements, it is often necessary to operate the
water heater at elevated temperatures.
Cold
Watts Series 1170-M2 mixing valves are used to reduce the
temperature of water supplied for domestic use.
Circulator
Water Heater
Heat
Exchanger
Blower
Tempered†
Hot
Air Handler
Watts Series 1170-M2*
Watts Series 1156
Watts Series AS
Watts Series
FV 4-M1
To He
a
t Loop
Watts Series ET
† Valves listed to ASSE 1016 or ASSE 1070 such as the Watts USG, L111
or MMV should be used at point of delivery.
* Heat trap is recommended. See page 4 for further information.
Heat
Loop
Retu
rn
21
Typical Installations
Recirculation Systems
The purpose of a recirculation system on domestic hot water
piping is to maintain a minimum temperature in the piping, thus
making tempered water immediately available to the user and
preventing growth of bacteria such as Legionella. Water in the
piping is not allowed to cool in periods of no demand.
Check Valves - Check valves assure flow of water in one
direction. Their purposes in a recirculation system are as follows:
• Prevents cross connection (bypass) in the event of
pressure drop
• Prevents thermal siphoning of hot water to the cold
water supply
Components of a domestic hot water recirculation system:
(Refer to Recirculation System 1)
• Prevents flow of cold water to the tempered water supply. A
draw of tempered water will not result in flow of cold water
into the return loop
Circulator - Very little flow is required to maintain a minimum
temperature in the piping, especially with current insulation
specifications. The size of the circulator depends upon the minimum flow requirements of the tempering valve. For a Watts
Series N170-M1, this is 8 to 9gpm (30 – 40 lpm). The minimum
flow requirements of the tempering valve must be maintained.
• Prevents thermal siphoning of hot water to the cold water inlet
of the mixing valve
WATTS
B6000
Ball
Valve
Tempered Water Supply
WATTS CSA/ASME
Temperature &
Pressure Relief Valve
WATTS
Series
600
Check
Valves
WATTS
Series
600
Check
Valve
WATTS
Series 1170-M2†*
To MMV-M1,
USG-B or L111
then to fixtures
Recirculation System 2
Cold Water Supply
Thermometer
MMV-M1
Circulator
Cold Water Supply
Aquastat
WATTS
Series
600
Check
Valves
Watts
Series
N170†*
Hot Water Return
Aquastat
† Valves listed to ASSE 1016 or ASSE 1070 such as the Watts L111, USG or
MMV should be used at point of delivery.
* Heat trap is recommended. See page 4 for further information.
22
To Fixture
Tempered Water 140°
Typical Two Temperature System with
High Temperature Hot Water
Recirculation Line
Circulator
Recirculation Loop
Water
Heater
Drain
Tube
Aquastat
Cold Water
Supply
Hot Water Supply
If both high temperature hot water and tempered hot water recirculation is required, a second circulator must be used and piped
Aquastat - An Aquastat must be used to control the on/off
as shown in Recirculation System 2.
operation of the circulator. The Aquastat is set 5°F to 10°F lower
than the mixed water outlet temperature of the tempering valve.
The circulator cannot be allowed to run continuTo Fixture
Series
ously because bypass through the mixing valve
MMV-M1
Cold Water Supply
will eventually allow the temperature in the piping
to climb to that of the hot water heater during
To MMV-M1, USG or
Recirculation System 1
L111 then to fixtures
no draw periods.
Thermometer
High
Temperature
Hot Water
WATTS CSA/ASME
Temperature &
Pressure Relief Valve
Shut
Off
Valve
Water
Heater
or Boiler
Drain
Tube
WATTS Series 600
Check Valves
WATTS Series 600 Check
Valves
Circulator
8"-12"
HeatTrap†*
Note: Water Heaters may be direct or indirect fired.
Typical Installation
Typical Radiant Heat Installation
Thermostatic mixing valves used in radiant heat applications
provide the installer with the ability to accurately control temperature to individual loops or zones. Recommended piping
includes a recirculation loop that will provide a continuous flow
of hot water to any individual loop or zone.
Until the zone/loop circulator is activated there is no flow
through the temperature control valve. Upon activation of the
circulator, hot boiler water supplied through the recirculation loop
enters the hot water inlet of the temperature control valve. Mixed
water from the valve at the desired temperature is supplied to
the zone/loop, the desired heat transfer occurs and the return
water is directed to either the recirculation loop or it enters the
cold inlet to be mixed with the hot boiler water. The amount of
hot water entering the zone/loop is always equal to the water
returned to the recirculation loop.
The boiler water supplied to the individual loop or zone enters
the hot water inlet of the temperature control valve and is mixed
with cool return water from that zone/loop.
ET Expansion
Tank
RPV
Purge
Valve
AS Air
Scoop
B6000
Ball Valve
Circulator
B6000
Ball Valve
B6000
Ball Valve
Circulator
B6000
Ball Valve
1156F-A or 1156F,
B1156F, N256,
1450F, T145B Boiler
Fill Valves
B6000
Ball Valve
n
etur
nt R
a
i
d
Ra
600
Check
Valve
RPV
Purge
1170-M2, Valve
L1170-M2 Mixing Valve
9D Backflow
Preventer
B6000
Ball Valve
B6000
Ball Valve
1170-M2
Mixing Valve†*
Boiler
ply
Sup
t
n
a
i
Rad
Circulator
B6000
Ball Valve
ply
Sup
t
n
a
i
Rad
turn
t Re
n
a
i
Rad
600
Check
Valve
1170-M2,
L1170-M2
Mixing Valve
RPV
Purge
Valve
600
Check Valve
† Valves listed to ASSE Standard 1016 such as the Watts USG, L111 or
MMV should be used at point of delivery.
* Heat trap is recommended. See page 4 for further information.
23
Typical Installations
Bypass Lines
To prevent condensation in high efficiency cast iron boilers, you
can use a bypass line which recirculates boiler water to the system return. In this system, boiler water below 140°F (60°C) circulates back to the boiler return without system flow. As the
temperature increases above 140°F (60°C) a mixture
of system water would also be returned to the boiler. When the
distribution system temperature exceeds 140°F (60°C), then full
flow would be obtained in the system with no flow through the
bypass loop. Watts Series N170-M2 valves are often used for
bypass service.
Watts
Series
N170-M2
Out From Boiler
Flow Below 140°F (60˚C)
Mixed
Boiler
H
C
To System
Flow Above 140°F (60˚C)
Circulator
Return To Boiler
24
From System
NOTES
815 Chestnut St., North Andover, MA 01845-6098 U.S.A.
978 688-1811
978 794-1848
North
East
Edwards, Platt & Deely, Inc.
Edwards, Platt & Deely, Inc.
W. P. Haney Co., Inc.
271 Royal Ave., Hawthorne, NJ 07506
368 Wyandanch Ave., North Babylon, NY 11703
51 Norfolk Ave., South Easton, MA 02375
973 427-2898
631 253-0600
508 238-2030
973 427-4246
631 253-0303
508 238-8353
Mid
Atlantic
J. B. O’Connor Company, Inc.
RMI
The Joyce Agency, Inc.
Vernon Bitzer Associates, Inc.
WMS Sales, Inc. (Main office)
P.O. Box 12927, Pittsburgh, PA 15241
Glenfield Bus. Ctr., 2535 Mechanicsville Tpk., Richmond, VA 23223
8442 Alban Rd., Springfield, VA 22150
980 Thomas Drive, Warminster, PA 18974
9580 County Rd., Clarence Center, NY 14032
724 745-5300
804 643-7355
703 866-3111
215 443-7500
716 741-9575
724 745-7420
804 643-7380
703 866-2332
215 443-7573
716 741-4810
South
East
Billingsley & Associates, Inc.
Billingsley & Associates, Inc.
Francisco J. Ortiz & Co., Inc.
Mid-America Marketing, Inc.
Mid-America Marketing, Inc.
Mid-America Marketing, Inc.
Smith & Stevenson Co., Inc.
Harry Warren, Inc.
Watts Georgia
2728 Crestview Ave., Kenner, LA 70062-4829
478 Cheyenne Lane, Madison, MS 39110
Charlyn Industrial Pk., Road 190 KM1.9 - Lot #8, Carolina, Puerto Rico 00983
203 Industrial Drive, Birmingham, AL 35211
1364 Foster Avenue, Nashville, TN 37210
5466 Old Hwy. 78, Memphis, TN 38118
4935 Chastain Ave., Charlotte, NC 28217
1400 North Orange Blossom Trail, Orlando, FL 32804
2861-B Bankers Industrial Drive, Atlanta, GA 30360
504 602-8100
601 856-7565
787 769-0085
205 879-3469
615 259-9944
901 795-0045
704 525-3388
407 841-9237
770 209-3310
504 602-8106
601 856-8390
787 750-5120
205 870-5027
615 259-5111
901 795-0394
704 525-6749
407 841-9246
770 447-4583
Aspinall Associates, Inc.
Dave Watson Associates
Disney McLane & Associates
BWA Company
Mid-Continent Marketing Services Ltd.
Soderholm & Associates, Inc.
Stickler & Associates
6840 Hillsdale Court, Indianapolis, IN 46250
1325 West Beecher, Adrian, MI 49221
428 McGregor Ave., Cincinnati, OH 45206
17610 S. Waterloo Rd., Cleveland, OH 44119
1724 Armitage Ct., Addison, IL 60101
7150 143rd Ave. N.W., Anoka, MN 55303
333 North 121 St., Milwaukee, WI 53226
317 849-5757
517 263-8988
800 542-1682
216 486-1010
630 953-1211
763 427-9635
414 771-0400
317 845-7967
517 263-2328
877 476-1682
216 486-2860
630 953-1067
763 427-5665
414 771-3607
Hugh M. Cunningham, Inc.
Mack McClain & Associates
Mack McClain & Associates, Inc.
Mack McClain & Associates, Inc.
OK! Sales, Inc.
13755 Benchmark, Dallas, TX 75234
4407 Meramec Bottom, Suite G, St. Louis, MO 63129
1450 NE 69th Place, Ste. 56 Ankeny, IA 50021
15090 West 116th St., Olathe, KS 66062
214-A NE 12th., Moore, OK 73160
972 888-3808
314 894-8188
515 288-0184
913 339-6677
405 794-5200
972 888-3838
314 894-8388
515 288-5049
913 339-9518
405 794-5250
Delco Sales, Inc.
Delco Sales, Inc.
Fanning & Associates, Inc.
Hollabaugh Brothers & Associates
Hollabaugh Brothers & Associates
P I R Sales, Inc.
Preferred Sales
R. E. Fitzpatrick Sales, Inc.
1930 Raymer Ave., Fullerton, CA 92833
111 Sand Island Access Rd., Unit I-10, Honolulu, HI 96819
6765 Franklin St., Denver, CO 80229-7111
6915 South 194th St., Kent, WA 98032
3028 S.E. 17th Ave., Portland, OR 97202
3050 North San Marcos Place, Chandler, AZ 85225
31177 Wiegman Road, Hayward, CA 94544
4109 West Nike Dr. (8250 South), West Jordan, UT 84088
714 888-2444
808 842-7900
303 289-4191
253 867-5040
503 238-0313
480 892-6000
510 487-9755
801 282-0700
714 888-2448
808 842-9625
303 286-9069
253 867-5055
503 235-2824
480 892-6096
510 476-1595
801 282-0600
905 332-4090
604 540-5088
403 253-6808
780 496-9495
888 208-8927
902 443-2274
905 332-7068
604 540-5084
403 259-8331
780 496-9621
888 479-2887
902 443-2275
506 859-1107
709 579-5771
418 873-2500
450 434-9010
204 775-8194
705 693-2715
506 859-2424
709 579-1558
418 873-2505
450 434-9848
204 786-8016
705 693-4394
RAM Mechanical Marketing Inc.
RAM Mechanical Marketing Inc.
Walmar Mechanical Sales
5435 North Service Road, Burlington, Ontario L7L 5H7
71B Clipper Street, Coquitlam, British Columbia V3K 6X2
#10-6130 4th St. S.E., Calgary, Alberta T2H 2B6
11420 142 Street, Edmonton, Alberta T5M 1V1
Greater Toronto Area
3700 Joseph Howe Drive, Suite 1, Halifax, Nova Scotia B3L 4H7
P.O. Box 1445 (Mailing), 297 Collishaw St., Suite 7 (shipping)
Moncton, New Brunswick E1C 9R2
4 Lancaster Street, St. John’s, Newfoundland A1A 5P7
23 du Buisson, Pont Rouge, Quebec G3H 1X9
86 des Enterprises #208, Boisbriand, Quebec J7G 2T3
1333 Clifton St., Winnipeg, Manitoba R3E 2V1
P.O. Box 280 (mailing) 163 Pine St. (shipping), Garson, Ontario P3L 1S6
P.O. Box 28136 (mailing), 1885 Blue Heron Dr., #4,
London, Ontario N6H 5L9
1401 St. John Street, Regina, Saskatchewan S4R 1S5
510 Ave M South, Saskatoon, Saskatchewan S7M 2K9
24 Gurdwara Rd., Nepean, Ontario K2E 8B5
519 471-9382
306 525-1986
306 244-6622
613 225-9774
519 471-1049
306 525-0809
306 244-0807
613 225-0673
EXPORT Hdqtrs.: Watts Regulator Co.
815 Chestnut St., North Andover, MA 01845-6098 U.S.A.
Canada
HEADQUARTERS: Watts Regulator Company
North
Central
Fax #
South
Central
Telephone #
Western
For Technical Assistance Call Your Authorized Watts Agent.
0647
Watts Industries (Canada) Inc.
(Watts Regulator Co. Division)
Con-Cur West Marketing, Inc.
D.C. Sales Corporation Inc.
D.C. Sales Corporation Inc.
GTA Sales Team.
Hydro-Mechanical Sales, Ltd.
Hydro-Mechanical Sales, Ltd.
J.D.S. Sales Ltd.
Le Groupe B.G.T., Inc.
Le Groupe B.G.T., Inc.
Mar-Win Agencies, Ltd.
Northern Mechanical Sales
Palser Enterprises, Ltd.
Water Safety & Flow Control Products
PG-MXV 0647
978 688-1811 978 794-1848
USA: 815 Chestnut St., No. Andover, MA 01845-6098; www.watts.com
Canada: 5435 North Service Rd., Burlington, ONT. L7L 5H7; www.wattscanada.ca
© Watts Regulator Company, 2006